公开(公告)号：US06397627B1

公开(公告)日：2002-06-04

申请号：US09518396

申请日：2000-03-03

申请人： Yoshifumi Aki ,  Etuo Hasegawa ,  Hiroki Matsuo ,  Tetsuji Nobuta ,  Michiyasu Yamamoto ,  Mitsukawa Kazuhiro ,  Eiji Okabayashi

发明人： Yoshifumi Aki ,  Etuo Hasegawa ,  Hiroki Matsuo ,  Tetsuji Nobuta ,  Michiyasu Yamamoto ,  Mitsukawa Kazuhiro ,  Eiji Okabayashi

IPC分类号： F25B3904

CPC分类号： F25B39/04 ,  F25B2339/044 ,  F25B2400/162 ,  F28F9/0212 ,  F28F9/0246 ,  F28F2220/00

摘要： In a receiver-integrated condenser, a super-cooling portion for cooling liquid refrigerant from a receiving unit is disposed between first and second condensing portions in a core portion in a vertical direction. Therefore, in an engine-idling, even when high-temperature air having passed through the receiver-integrated condenser is introduced again toward an upstream air side of the receiver-integrated condenser through a lower side of the receiver-integrated condenser, the high-temperature air is not introduced toward the arrangement position of said super-cooling portion, because the super-cooling portion is positioned at an upper side from the second condensing portion. Thus, super-cooling performance of refrigerant in the super-cooling portion of the core portion is prevented from being decreased even in the engine idling.

摘要翻译： 在接收器集成的冷凝器中，用于从接收单元冷却液体制冷剂的超冷却部分设置在芯部分中的垂直方向上的第一和第二冷凝部分之间。 因此，在发动机怠速运转中，即使通过接收器一体化的冷凝器的高温空气通过集成式集成冷凝器的下侧再次向接收器集成电容器的上游空气侧引入， 因为超冷却部位于与第二冷凝部的上侧相对的位置，所以不会向所述超冷却部的配置位置引入高温空气。 因此，即使在发动机空转时也防止了芯部的超冷却部中的制冷剂的超冷却性能降低。